CN104633875A

CN104633875A - Air control system

Info

Publication number: CN104633875A
Application number: CN201510027947.6A
Authority: CN
Inventors: 李昱兵; 李进; 高向军; 薛松; 张少龙
Original assignee: Sichuan Changhong Electric Co Ltd
Current assignee: Sichuan Changhong Electric Co Ltd
Priority date: 2015-01-20
Filing date: 2015-01-20
Publication date: 2015-05-20
Anticipated expiration: 2035-01-20
Also published as: CN104633875B

Abstract

The invention provides an air control system. By means of the air control system, the technical effect that air conditioners are controlled through outdoor mobile terminals is achieved. The air control system comprises N air conditioners, M first mobile terminals and a controlling air conditioner, and the controlling air conditioner is connected with the N air conditioners and K first mobile terminals in the M first mobile terminals and outside a first space, and the controlling air conditioner receives control parameters transmitted from the K first mobile terminals. Subsequently, the controlling air conditioner sends air conditioner control commands to the N air conditioners according to the control parameters, and finally the N air conditioners run according to the air conditioner control commands, so that air parameters in the first space are consistent with the control parameters. Therefore, by means of the air control system, the technical problem that in the prior art an air conditioner depends on operations of a user within the same space to be controlled is solved, and the technical effect that the N air conditioners can still be controlled by one or more users using the K first mobile terminals even if the users are far away from the first space is achieved.

Description

A kind of air control system for air

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of air control system for air.

Background technology

Before 20th century, people restrain oneself the heat in summer and the severe cold in winter, and people incomparably extravagantly hope and within one day, can change indoor changes in temperature.1906, the appearance of air-conditioning achieved people's dream for many years.

Air-conditioning, also claims air conditioning, refers to and uses artificial means, to the temperature of interior of building surrounding air, humidity, etc. the equipment that regulates of parameter.Nowadays, in our life, air-conditioning has become people's work and one of indispensable electrical equipment of living.

Now, air-conditioning connects in check method generally has one.That is exactly after power-on of air conditioner, receives air-conditioning remote control and sends and next control information.Such control method just can must be completed by the user's executable operations being in same indoor with air-conditioning.

Summary of the invention

This application provides a kind of air control system for air, achieve the technique effect being controlled air-conditioning by outdoor mobile terminal.

The air control system for air that the application provides, comprising:

N number of air-conditioning, in described N number of air-conditioning, the indoor set of each air-conditioning is all positioned at the first space, and described first space comprises at least one subspace, and N is positive integer;

M the first mobile terminal, and in described M the first mobile terminal at least K the first mobile terminal be positioned at outside described first space, M and K is positive integer, and K≤M;

Control air-conditioning, described control air-conditioning is any one air-conditioning in described N number of air-conditioning, is connected with all the other N-1 air-conditioning and described K the first mobile terminal;

Described control air-conditioning receives described K the first mobile terminal and sends and next controling parameters, sends airconditioning control instruction according to described controling parameters to described N number of air-conditioning; Described N number of air-conditioning according to described airconditioning control instruction operation, to make the air parameter in described first space consistent with described controling parameters.

Optionally, described system also comprises:

P humidifier, is all connected with described control air-conditioning, and P is positive integer;

Described control air-conditioning, according to described controling parameters, generates humidifier control instruction, and described humidifier control instruction is sent to a described P humidifier; A described P humidifier runs according to the described humidifier control instruction received.

Optionally, described system also comprises:

Q air purifier, is all connected with described control air-conditioning, and Q is positive integer;

Described control air-conditioning, according to described controling parameters, generates air purifier control instruction, and described air purifier control instruction is sent to a described Q air purifier; A described Q air purifier runs according to the described air purifier control instruction received.

Optionally, described system also comprises:

At least one sub-controller, is connected with described control air-conditioning; Each sub-controller is connected with at least one air-conditioning, at least one humidifier and at least one air purifier in sub spaces every at least one subspace described;

Described control air-conditioning sends identical or different control instruction respectively to described each sub-controller; Described control instruction, according to the described control instruction received, is resolved to the sub-control instruction of air-conditioning, the sub-control instruction of humidifier and the sub-control instruction of air purifier by described each sub-controller; And sub-for described air-conditioning control instruction, the sub-control instruction of described humidifier and the sub-control instruction of described air purifier are sent at least one air-conditioning described in connection, at least one humidifier described and at least one air purifier described respectively.

Optionally, at least one sub-controller described is specially at least one air-conditioning in described N number of air-conditioning.

Optionally, described system also comprises:

Air-conditioning sub-controller, is connected with described control air-conditioning and a described N-1 air-conditioning;

Described control air-conditioning sends described airconditioning control instruction to described air-conditioning sub-controller; Described airconditioning control instructions parse is the sub-control instruction of N number of air-conditioning by described air-conditioning sub-controller, and the sub-control instruction of described N number of air-conditioning is sent to N number of air-conditioning respectively.

Optionally, described system also comprises:

Humidifier sub-controller, is connected with described control air-conditioning and a described P humidifier;

Described control air-conditioning sends described humidifier control instruction to described humidifier sub-controller; Described humidifier control instruction is resolved to P the sub-control instruction of air-conditioning by described humidifier sub-controller, and the sub-control instruction of a described P humidifier is sent to P humidifier respectively.

Optionally, described system also comprises:

Air purifier sub-controller, is connected with described control air-conditioning and a described Q air purifier;

Described control air-conditioning sends described air purifier control instruction to described air purifier sub-controller; Described air purifier control instruction is resolved to Q the sub-control instruction of air purifier by described air purifier sub-controller, and the sub-control instruction of a described Q air purifier is sent to Q air purifier respectively.

Optionally, described control air-conditioning also for:

The first acquisition instructions is being sent, to gather the body parameter being at least one user in described first space at least one Wearable be connected with described control air-conditioning;

Receive the body parameter of at least one user described that at least one Wearable described sends;

According to body parameter and the described controling parameters of at least one user described, described controling parameters is optimized, obtains optimal control parameter;

Described airconditioning control instruction, humidifier control instruction and air purifier control instruction is generated and sent based on described optimal control parameter.

Optionally, when each air-conditioning include temperature sensor, each humidifier includes humidity sensor, and when each air purifier comprises air measuring appliance, described control air-conditioning also for:

The second acquisition instructions is sent, to gather present air parameter to described N number of air-conditioning, a described P humidifier and a described Q air purifier.

Optionally, described control air-conditioning also for:

Described control air-conditioning sends described controling parameters and described present air parameter to described M the first mobile terminal or M-K the first mobile terminal.

The one or more technical schemes provided in the embodiment of the present invention, at least have following technique effect or advantage:

In the embodiment of the present application, air control system for air comprises the N number of air-conditioning being positioned at the first space, M the first mobile terminal and control air-conditioning, and control air-conditioning to be connected with K the first mobile terminal be positioned at outside the first space in N number of air-conditioning and M the first mobile terminal, the controling parameters that reception K the first mobile terminal sends and comes.Then, control air-conditioning and send airconditioning control instruction according to controling parameters to N number of air-conditioning, last N number of air-conditioning according to airconditioning control instruction operation, to make the air parameter in the first space consistent with controling parameters.So, solve prior art air-conditioning and rely on the user's executable operations being in the same space, the controlled technique effect of ability, achieves the one or more users using K the first mobile terminal, even if away from the first space, the technique effect of N number of air-conditioning still can be controlled.

Accompanying drawing explanation

Fig. 1 is the Organization Chart of air control system for air in the embodiment of the present application;

Fig. 2 is at least one sub-controller Organization Chart in the embodiment of the present application;

Fig. 3 is the embodiment of the present application hollow tune controller, humidifier sub-controller and air purifier sub-controller Organization Chart.

Detailed description of the invention

In order to solve the problems of the technologies described above, the technical scheme general thought that the application provides is as follows:

In the embodiment of the present application, air control system for air comprises the N number of air-conditioning being positioned at the first space, M the first mobile terminal and controller, and controller is connected with K the first mobile terminal be positioned at outside the first space in N number of air-conditioning and M the first mobile terminal, the controling parameters that reception K the first mobile terminal sends and comes.Then, controller sends airconditioning control instruction according to controling parameters to N number of air-conditioning, last N number of air-conditioning according to airconditioning control instruction operation, to make the air parameter in the first space consistent with controling parameters.So, solve prior art air-conditioning and rely on the user's executable operations being in the same space, the controlled technique effect of ability, achieves the one or more users using K the first mobile terminal, even if away from the first space, the technique effect of N number of air-conditioning still can be controlled.

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Term "and/or" herein, being only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, and such as, A and/or B, can represent: individualism A, exists A and B simultaneously, these three kinds of situations of individualism B.In addition, character "/" herein, general expression forward-backward correlation is to the relation liking a kind of "or".

The embodiment of the present application provides a kind of air control system for air, as shown in Figure 1, comprising:

N number of air-conditioning 10, M the first mobile terminal 20 and control air-conditioning 101.N and M is positive integer.

First, in the embodiment of the present application, the indoor set of each air-conditioning in N number of air-conditioning 10 is all in the first space.First space can be the house of user, office building, office building or teaching building etc., and the application does not limit this.Comprise at least one subspace in first space, and the concrete volume cost application of at least one subspace is not also limited.Such as the first space is the house of user, and so at least one subspace can be the rooms etc. such as parlor, bedroom and study.

N number of air-conditioning 10 can be distributed in each subspace at least one subspace, also can only be distributed in a part of subspace at least one subspace.The application those of ordinary skill in the field can be arranged according to actual, do not limit this application.

In M the first mobile terminal 20, have at least K the first mobile terminal 201 to be positioned at outside the first space, all the other M-K terminal can be positioned at the first space, also can be positioned at outside the first space.K≤M, and K is also positive integer.K the first mobile terminal 201 can connecting Internet, therefore uses one or more users of K the first mobile terminal 201 can view weather or the air regime in this locality or all the other regions on the internet.If described one or more user wishes to be in household in the first space or friend also experiences the air condition oneself liked, so can by oneself selected air parameter on internet, namely controling parameters is sent to and controls air-conditioning 101.

In addition, K the first mobile terminal 201 can comprise multiple sensor, include but not limited to air mass sensor, temperature sensor and humidity sensor, therefore individual first mobile terminal 201 of K can detect the air parameter of now environment residing for described one or more user.If described one or more user wishes to be in the air condition that household in the first space or friend also experience oneself residing environment at present, so can by the air parameter of residing environment, namely controling parameters is sent to and controls air-conditioning 101.

In the first space, control air-conditioning 101 and be connected by internet with K the first mobile terminal 201, and receive the controling parameters of K first terminal transmission.Control to resolve after air-conditioning 101 receives controling parameters, and according to the controling parameters after parsing, generate the airconditioning control instruction controlling N number of air-conditioning 10.In the embodiment of the present application, airconditioning control instruction runs with the parameter that controling parameters air-conditioning is corresponding for controlling air-conditioning, thus after making N number of air-conditioning 10 run the sufficiently long time, the air parameter in the first space, consistent with controling parameters.The application personnel are to be understood that, because the first space is difficult to realize not carrying out any energy exchange with the external world, therefore in this area, the air parameter error that be specially air parameter and controling parameters between consistent with controling parameters drops in statistics and thinks in the insignificant region of error.

In specific implementation process, the first mobile terminal can be mobile phone, intelligent watch or panel computer etc., does not limit this.

Control air-conditioning 101 to be connected by Wifi with all the other N-1 air-conditioning, and by Wifi to N-1 air-conditioning sending controling instruction.Specifically, controlling air-conditioning 101 can be identical to the control instruction that each air-conditioning in N number of air-conditioning 10 sends, also can be different.

After N number of air-conditioning 10 receives control instruction, will bring into operation according to the control instruction received separately, when after the operation sufficiently long time, such as 1 hour etc., the air parameter in the first space will be consistent with controling parameters.

Optionally, in order to make the temperature and humidity in the first space all consistent with controling parameters, in the embodiment of the present application, air control system for air also comprises P humidifier 40.P humidifier 40 is all connected with control air-conditioning 101 by Wifi, and accepts the control controlling air-conditioning 101.

Control air-conditioning 101 according to controling parameters, generate humidifier control instruction, then humidifier control instruction is sent to P humidifier 40, P humidifier 40 is run according to control instruction.Wherein, P is positive integer.

In the prior art, be similar to air-conditioning, humidifier could can only be controlled by the user's executable operations being in same indoor.By foregoing description, in the embodiment of the present application, one conveniently makes the one or more users using K the first mobile terminal, even if away from the first space, and still can a control P humidifier.On the other hand, make the air control system for air in the embodiment of the present application can also regulate humidity in the first space, thus create better room air for user.

Optionally, in order to make the temperature in the first space, humidity and air purity all consistent with controling parameters, in the embodiment of the present application, air control system for air also comprises Q air purifier 50.Q air purifier 50 is all connected with control air-conditioning 101 by Wifi, and accepts the control controlling air-conditioning 101.

Control air-conditioning 101 according to controling parameters, generate air purifier control instruction, then air purifier control instruction is sent to Q air purifier 50, Q air purifier 50 is run according to control instruction.Wherein, Q is positive integer.

In the prior art, be similar to air-conditioning and humidifier, air purifier could can only be controlled by the user's executable operations being in same indoor.By foregoing description, in the embodiment of the present application, one conveniently makes the one or more users using K the first mobile terminal, even if away from the first space, and still can a control Q humidifier.On the other hand, make the air control system for air in the embodiment of the present application can also regulate air purity in the first space, thus create better room air for user.

Further, in order to air that is convenient and that control exactly in the first space, reduce the facility load controlling air-conditioning 101, the application also comprises two kinds of concrete embodiments simultaneously.

The first:

As shown in Figure 2, the air control system for air in the embodiment of the present application also comprises at least one sub-controller 30.In specific implementation process, at least one sub-controller 30 can be in N number of air-conditioning 10 any at least one.

At least one sub-controller 30 is connected with control air-conditioning 101, and connected mode is still realized by Wifi, and controls air-conditioning 101 and can control at least one sub-controller 30.The quantity of at least one controller is identical with the quantity of at least one subspace, and is distributed with a unique sub-controller in every sub spaces.Each sub-controller 30 is coupled together by Wifi with at least one air-conditioning in oneself subspace, place, at least one humidifier and at least one air purifier, thus controls at least one air-conditioning 102, at least one humidifier 401 and at least one air purifier 501.

Control air-conditioning 101 according to the needs of every sub spaces, or according to the setting of user and control, send identical or different control instruction to each sub-controller 30.For example, suppose that the first space is the house of user, comprise three sub spaces, be respectively parlor, adult bedrooms and child bedroom, so there are three sub-controllers to be connected with control air-conditioning 101.The controling parameters that control air-conditioning 101 now receives is assumed to be " 20 degree, gentle breeze, air humidity 60%, PM2.5 index 20 ".According to controling parameters, control air-conditioning 101 and can generate three groups of identical control instructions, then send to three sub-controllers, make parlor, adult bedrooms and child bedroom within the sufficiently long time, air parameter reaches " 20 degree, gentle breeze; air humidity 60%, PM2.5 index 20 ".

Control air-conditioning 101 and also can generate three groups of incomplete same control instructions.Such as unsuitable for children in temperature environment on the low side because easy to catch cold.Therefore, example 23 degree etc. can be adjusted to by 20 degree, then send the control instruction generated by controling parameters " 23 degree, gentle breeze, air humidity 60%, PM2.5 index 20 " to the sub-controller in child bedroom.And the control instruction generated by controling parameters " 20 degree, gentle breeze, air humidity 60%, PM2.5 index 20 " is sent to the sub-controller in adult bedrooms and parlor.

Because the air in every sub spaces is controlled by corresponding sub-controller, therefore, in the technical scheme of above-mentioned embodiment, achieve every sub spaces and perform incomplete same control, make the air parameter in every sub spaces incomplete same.

The second:

The port, agreement Sum fanction etc. that carry out communicating due to air-conditioning, humidifier and air purifier and control air-conditioning 101 may be different, therefore, the air control system for air in the embodiment of the present application controls three kinds of electronic equipments respectively by air-conditioning sub-controller 31, humidifier sub-controller 32 and air purifier sub-controller 33.

Specifically, as shown in Figure 3, air-conditioning sub-controller 31 is connected by Wifi with N number of air-conditioning 10, and controlling air-conditioning 101 needs the airconditioning control instruction performed to be sent to air-conditioning sub-controller 31 by N number of air-conditioning 10, then is sent to N number of air-conditioning 10 by air-conditioning sub-controller 31.

Also be similar for P humidifier 40 and Q air purifier 50, just it is no longer repeated here.

The electronic equipment of three types is controlled respectively by separate air-conditioning sub-controller 31, humidifier sub-controller 32 and air purifier sub-controller 33, the control instruction for each type electronic device can be made to use independent channel, thus avoid the control instruction of three types, i.e. mutual interference between airconditioning control instruction, humidifier control instruction and air purifier control.

Further, in the embodiment of the present application, control air-conditioning 101 and can also send the first acquisition instructions to gather the body parameter of at least one user at least one Wearable be connected with control air-conditioning 101.Specifically, at least one Wearable can be intelligent watch, bracelet or ring etc., is connected with control air-conditioning 101 by Wifi.At least one Wearable gathers the body parameter of at least one user, as shell temperature, heart rate, blood pressure with whether be in sleep etc. after receiving and controlling the first acquisition instructions that air-conditioning 101 sends.Then the body parameter of at least one user is returned and control air-conditioning 101.

Control air-conditioning 101 and next carry out optimal control parameter according to the body parameter of at least one user, make the air in the first space more be applicable at least one user.For example, suppose that at present the shell temperature of the wherein body parameter of user A is 20 degree, so show that now user A health can feel cold, therefore, if controling parameters is now " 20 degree, gentle breeze, air humidity 60%; PM2.5 index 20 ", so the temperature in controling parameters can be heightened, such as, be optimized for " 26 degree, gentle breeze; air humidity 50%, PM2.5 index 20 " etc.

Give one example at row and illustrate.Suppose that controling parameters is for " 30 degree, calm, air humidity 20%, PM2.5 index 40 ", shows in the body parameter of user B that now user B is in deep sleep.If control air with controling parameters now, the sweltering heat that the air in the first space can be made to become is dry, so probably reduces user B deep sleep quality, even makes user B cannot continue sleep.Therefore temperature can be turned down, air humidity is heightened, be such as optimized for " 26 degree, calm, air humidity 52%, PM2.5 index 40 ".

Then, optimal control instruction is sent the sub-controller in every sub spaces by control air-conditioning 101, or air-conditioning sub-controller 31, humidifier sub-controller 32 and air purifier sub-controller 33.

Further, in order to understand the present air parameter in the first space, controlling air-conditioning 101 also needs to send the second acquisition instructions to N number of air-conditioning 10, a P humidifier 40 and Q air purifier 50.Specifically, each air-conditioning each air-conditioning comprises temperature sensor, so the temperature of self surrounding air can be detected.Each air-conditioning each humidifier is provided with humidity sensor, so the temperature of self surrounding air can be detected.Each humidifier each humidifier is provided with humidity sensor, so can detect the relative humidity of self surrounding air.Equally, each air purifier is also provided with air measuring appliance, therefore air purifier can detect the quality of surrounding space, as PM2.5 concentration, PM5 concentration, sulfur dioxide concentration etc.

In the embodiment of the present application, before control air-conditioning 101 can send the second collection to the sub-controller 30 in every sub spaces, at least one air-conditioning 102, at least one humidifier 401 and at least one air purifier 501 that then each sub-controller draws oneself up in subspace, place again gather.

Control air-conditioning 101 and also can send temperature acquisition instruction to air-conditioning sub-controller 31.And then air-conditioning sub-controller 31 controls N number of air-conditioning 10 detected temperatures, and receive N number of temperature that N number of air-conditioning 10 returns, finally N number of temperature value is returned to and control air-conditioning 101.The process gathering humidity parameter and air quality parameters is also similar.

Finally, control air-conditioning 101 and send controling parameters and/or present air parameter to M the first mobile terminal or M-K the first mobile terminal, make the user of M the first mobile terminal or M-K the first mobile terminal understand the present air situation of the first air, and/or air control system for air is to the control situation of air.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims

1. an air control system for air, is characterized in that, comprising:

2. the system as claimed in claim 1, is characterized in that, described system also comprises:

3. system as claimed in claim 2, it is characterized in that, described system also comprises:

4. system as claimed in claim 3, it is characterized in that, described system also comprises:

5. system as claimed in claim 4, it is characterized in that, at least one sub-controller described is specially at least one air-conditioning in described N number of air-conditioning.

6. system as claimed in claim 3, it is characterized in that, described system also comprises:

7. system as claimed in claim 6, it is characterized in that, described system also comprises:

8. system as claimed in claim 7, it is characterized in that, described system also comprises:

9. the system as described in any one of claim 5-8, is characterized in that, described control air-conditioning also for:

The first acquisition instructions is sent, to gather the body parameter being at least one user in described first space at least one Wearable be connected with described control air-conditioning;

10. system as claimed in claim 9, is characterized in that, when each air-conditioning include temperature sensor, each humidifier includes humidity sensor, and when each air purifier comprises air measuring appliance, described control air-conditioning also for:

11. systems as claimed in claim 10, is characterized in that, described control air-conditioning also for: